The Local Group: The Ultimate Deep Field

Abstract

Near-field cosmology -- using detailed observations of the Local Group and its environs to study wide-ranging questions in galaxy formation and dark matter physics -- has become a mature and rich field over the past decade. There are lingering concerns, however, that the relatively small size of the present-day Local Group ( 2 Mpc diameter) imposes insurmountable sample-variance uncertainties, limiting its broader utility. We consider the region spanned by the Local Group's progenitors at earlier times and show that it reaches 3' ≈ 7 co-moving Mpc in linear size (a volume of ≈ 350\, Mpc3) at z=7. This size at early cosmic epochs is large enough to be representative in terms of the matter density and counts of dark matter halos with M vir(z=7) 2× 109\,M. The Local Group's stellar fossil record traces the cosmic evolution of galaxies with 103 M(z=0) / M 109 (reaching M1500 > -9 at z7) over a region that is comparable to or larger than the Hubble Ultra-Deep Field (HUDF) for the entire history of the Universe. It is highly complementary to the HUDF, as it probes much fainter galaxies but does not contain the intrinsically rarer, brighter sources that are detectable in the HUDF. Archaeological studies in the Local Group also provide the ability to trace the evolution of individual galaxies across time as opposed to evaluating statistical connections between temporally distinct populations. In the JWST era, resolved stellar populations will probe regions larger than the HUDF and any deep JWST fields, further enhancing the value of near-field cosmology.